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Project Estimation Describe project scope, alternatives, feasibility.
Divide project into tasks. Estimate resource requirements and create resource plan.
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Project Estimation (Cont.)
Determine standards and procedures. Identify and assess risk. Create budget.
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Deliverables and Outcomes
Business Case Justification for an information system. Presented in terms of the tangible and intangible economic benefits and costs. The technical and organizational feasibility of the proposed system.
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Assessing Project Feasibility
Economic Technical Operational Scheduling Legal and contractual Political
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Assessing Costs and Benefits
Economic feasibility: a process of identifying the financial benefits and costs associated with a development project. Often referred to as cost-benefit analysis. Project is reviewed after each SDLC phase in order to decide whether to continue, redirect, or kill a project.
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Determining Project Benefits
Tangible benefits refer to items that can be measured in dollars and with certainty. Examples include: reduced personnel expenses, lower transaction costs, or higher profit margins.
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Determining Project Benefits (Cont.)
Most tangible benefits will fit within the following categories: Cost reduction and avoidance Error reduction Increased flexibility Increased speed of activity Improvement of management planning and control Opening new markets and increasing sales opportunities
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Determining Project Benefits (Cont.)
Intangible benefits are benefits derived from the creation of an information system that cannot be easily measured in dollars or with certainty. May have direct organizational benefits, such as the improvement of employee morale. May have broader societal implications, such as the reduction of waste creation or resource consumption.
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Determining Project Costs
Tangible costs: a cost associated with an information system that can be measured in dollars and with certainty. IS development tangible costs include: Hardware costs, Labor costs, or Operational costs including employee training and building renovations.
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Determining Project Costs (Cont.)
Intangible costs: a cost associated with an information system that cannot be easily measured in terms of dollars or with certainty. Intangible costs can include: Loss of customer goodwill, Employee morale, or Operational inefficiency.
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Determining Project Costs (Cont.)
One-time cost: a cost associated with project start-up and development or system start-up. These costs encompass activities such as: Systems development, New hardware and software purchases, User training, Site preparation, and Data or system conversion.
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Determining Project Costs (Cont.)
Recurring cost: a cost resulting from the ongoing evolution and use of a system. Examples of these costs include: Application software maintenance, Incremental data storage expenses, Incremental communications, New software and hardware leases, and Supplies and other expenses (i.e. paper, forms, data center personnel).
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Determining Project Costs (Cont.)
Both one-time and recurring costs can consist of items that are fixed or variable in nature. Fixed costs are billed or incurred at a regular interval and usually at a fixed rate. Variable costs are items that vary in relation to usage.
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Determining Project Costs (Cont.)
Procurement Consulting, equipment, site preparation, capital, management time Start-up Operating systems, communications installation, personnel hiring, organizational disruption Project-related Application software, software modification, personnel overhead, training, data analysis, documentation Operating System maintenance, rental, asset depreciation, operation and planning
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The Time Value of Money Net Present Value (NPV)
Use discount rate to determine present value of cash outlays and receipts Return on Investment (ROI) Ratio of cash receipts to cash outlays Break-Even Analysis (BEA) Amount of time required for cumulative cash flow to equal initial and ongoing investment
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The Time Value of Money Net Present Value (NPV)
Use discount rate to determine present value of cash outlays and receipts Return on Investment (ROI) Ratio of cash receipts to cash outlays Break-Even Analysis (BEA) Amount of time required for cumulative cash flow to equal initial and ongoing investment
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The Time Value of Money Time value of money (TVM): the concept that money available today is worth more than the same amount tomorrow. Discount rate: the rate of return used to compute the present value of future cash flows (the cost of capital). Present value: the current value of a future cash flow
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The Time Value of Money (Cont.)
Net Present Value PVn = present value of Y dollars n years from now based on a discount rate of i. NPV = sum of PVs across years. Calculates time value of money.
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The Time Value of Money (Cont.)
Break-even analysis: a type of cost-benefit analysis to identify at what point (if ever) benefits equal costs.
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Assessing Technical Feasibility
Technical feasibility: a process of assessing the development organization’s ability to construct a proposed system.
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Assessing Technical Feasibility
The potential consequences of not assessing and managing risks can include the following: Failure to attain expected benefits from the project, Inaccurate project cost estimates, Inaccurate project duration estimates, Failure to achieve adequate system performance levels, and Failure to adequately integrate the new system with existing hardware, software, or organizational procedures.
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Project Risk Factors Project size Project structure Development group
Team size, organizational departments, project duration, programming effort Project structure New vs. renovated system, resulting organizational changes, management commitment, user perceptions Development group Familiarity with platform, software, development method, application area, development of similar systems User group Familiarity with IS development process, application area, use of similar systems
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Assessing Technical Feasibility (Cont.)
Risk can be managed on a project by: Changing the project plan to avoid risky factors, Assigning project team members to carefully manage the risky aspects, Setting up monitoring methods to determine whether or not potential risk is, in fact, materializing.
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Assessing Technical Feasibility (Cont.)
The four primary factors associated with the amount of technical risk on a given project are: Project size, Project structure, The development group’s experience with the application and technology area, and The user group’s experience with systems development projects and the application area (see also Kirsch, 2000).
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Assessing Technical Feasibility (Cont.)
Four general rules emerged as technical risk assessments: Larger projects are riskier than smaller projects. A system in which the requirements are easily obtained and highly structured will be less risky than one in which requirements are messy, ill structured, ill defined, or subject to the judgment of an individual.
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Assessing Technical Feasibility (Cont.)
The development of a system employing commonly used or standard technology will be less risky than one employing novel or nonstandard technology. A project is less risky when the user group is familiar with the familiar with the systems development process and application area than if unfamiliar.
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Assessing Technical Feasibility (Cont.)
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Assessing Other Feasibility Concerns
Operational Does the proposed system solve problems or take advantage of opportunities? Scheduling Can the project time frame and completion dates meet organizational deadlines? Legal and Contractual What are legal and contractual ramifications of the proposed system development project? Political How do key stakeholders view the proposed system?
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Building the Baseline Project Plan
Baseline Project Plan (BPP) is a document intended primarily to guide the development team. Sections: Introduction System description Feasibility assessment Management issues
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Building the Baseline Project Plan (Cont.)
Project Scope statement is part of the BPP introduction. Sections: Problem statement Project objectives Project description Business benefits Deliverables Expected duration
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Factors in Determining Scope
Organizational units affected by new system Current systems that will interact with or change because of new system People who are affected by new system Range of potential system capabilities
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